Blowpipe machine



3 GE 6 1 a NM 2 t V RUA Y z, e mw m 2 e 5 a m g 0 W W w q 0 mm A S 1LT 6 L. w. YOUNG ETAL. BLUWPIPE MACHINE Feb. 20, 1951 Original Filed Nov. '7, 1941 Feb. 20, 1951 BLOWPIPE MACHINE Original Filed Nov. 7, 1941 6 Sheets-Sheet 3 62 n I B 4.2 "I y 45 1 42 g '40 45 o 0 40 g n 4847 Q /I o 5; 0' 59 2g Z J2 49 m I I 1 M6 5/ 5 52 551 I 79 l 69 1 i 74. Q i a 55 I I05 [26g g 4 W u f g 124 -r1 H: 02 x I 5,4 E/ N #102 Illv I g 20 20 g m ms wsfias I I THOMAS 5. JAMES ATTORNEY L. W. YOUNG ETAL Feb. 20, 1951 BLOWPIPE MACHINE Original Filed Nov. 7, 1941 6 Sheets-Sheet 4 THOMAS s. JAMES ATTORNEY Feb. 20, 1951 1.. w. YOUNG ET AL 2,542,226

BLOWPIPE MACHINE Original Filed Nov. '7, 1941 6 Sheets-Sheet 5 m7 I55 [56 f L M Z I65 A O 5 I59 /.55 I54 A58 INVQI/QTORS LLOYD W. YOUNG ATTORNEY THO AS 5. JAMES Feb. 20, 1951 L. w. YOUNG ETAL BLOWPIPE MACHINE Original Filed Nov. '7, 1941 6' Sheets-Sheet 6 5 GE S R Y OO E TY N N .5 R S 0 M n 00 LUH LT Patented Feb. 20, 1951 UNITED- STATES PATENT OFFICE BLOWPIPE MACHINE I Lloyd W. Young, Elizabeth, NJ J and Thomas 5.

James, Ben Avon; Pa., assignors to The Linde Air Products Company, a corporation ofOhio Continuation. of' application Serial No. 418,225, November 7', 1941'; This application June 20; 1945, Serial No. 600,470

ata" suitable cutting speed to thermochemically torm'a kerftherethrough. Such bars, and billets are usually of various sizes and may be either round" or-rectangular' according to the type or types-of products themill is'rolling'; Such prior artmachines, however, are specially constructed and' arranged for cutting bars of a particular shape and a machine adapted for cutting round bars or billets is not suitable for cutting rectangular stock andvice'versa; Such machines also cannot be readily and efiiciently withdrawn to an inoperative positionout of the way of other mechanisms and, generally, it has been necessary to provide a different machinefon each commercial 1 application;-

It is the-principal object ofthe present invention toprovide an improved blowpipe propelling machine and-to provide sucha machine particularly adapted for thermochemically severing ferrous metal bodies such as round and/or'rectan'gular steel bars, billets, and the like.-

Other objects of this invention are to provide' a blowpipe machine inwhich the blowpipe is movable both horizontally and" through an arc toward and away fromthe workpiece; to i provide such a machine in'which the blowpipe is movable insubstantially astraight'line toward and away fromthe body to be severed in accordance with siz'ecofthe body; and to provide such a machine inwhich the blowpipe is movable through an arctoward and away from a position substantially adjacent such body; to provide such a machine whichisreadily adaptable for severing bodies of different sizes; to provide such a machine in which the blow-pipe issupported by a boom pivotally connected to a supporting link and extending'towardthe' body to be severed; to provide such a machine whichincludes means for first-movi'ng-the blowpipe supporting boom in substantially a straight line andfor next moving the' boom through an are about its pivot connection: tothe supporting link; toprovide such a machine-inwhich' the blowpipe propelling mecha nism is partially: supported by the body being severed; toprovide such a machine which in clude'sa'n' improved blowpipe propelling mecha ni'sm-adjustableto move at least the nozzle end of the blowpipe through a path substantially parallel to either" a fiat or arcuate surface;- to provide such a machinewhich includes an 1m proved means for controlling the rate of travel of 'theblowpipe; toprovide such a machine which includes an improvedmec'hanism for controlling the cycle ofv operation; toprovide such a machine including one or more blowpipes supported by an articulated member. so" constructed and arranged forrlimited'movement asto'properly align the one ormore blowpipes with the side of the body to be severed to" properly. position each blowpipe in a:

starting position; and toprovide such a machine which is relatively simple and 'rugged'in construe-'- tion and economical'to manufacture.

These and other'objects and novel features wi1l= become apparent from the following descriptionembodying theprinciples of the present inven--" tion with portionsof the cover broken away tomoreclearly show the internal structure;

Fig. 2 is aplan view of the machineof Fig. 1';

Fig.3 is a front elevational view of the machine ofFig. 1;

Fig. 4Ais a fragmentary, enlarged view, partially insection and with portions broken away/taken substantially along line 44 of Fig. 2;

Fig. 5 is a fragmentary, enlarged view of the. cam mechanismfor controllingthe rate of travel of the blowpipes;

Fig. 6. is a fragmentary. sectional view taken along line 66 of Fig. 5';

Fig. .7 is an enlarged view; partially in section, of. the control mechanism;

Fig; 8is'a fragmentaryplan View of the mechanism'for resetting the stop-clock. and istaken al'ong'lin'e 8-8 of Fig; 7;

Fig; 9'ls an enlarged fragmentary view, par= tially in section, of one of the cam-operated'i valving'mechanisms and is'taken along'line 9--9 Fig; 10 is a diagrammaticrepresentation of the gas flow=controlling mechanism;

Fig; I1 is a table representing the-sequence of valve operation for controlling the operation of the machine of Fig. 1; i

Fig; 1218 a schematic representation of" the movement of the blowpipe into an operative position adjacent a round bar and across th movement of the blowpipe through one complete cycle of operations when severing a rectangular bar.

The blowpipe machine is preferably installed adjacent any conventional or suitable type of conveyor for moving the bars into a position'to be severed. Referring to the drawings, the blowpipe machine is readily adaptable for moving one or more blowpipes, such as three similar cutting blowpipes B across different sizes of bodies such as round or rectangular steel bars or billets. A steel bar, such as the billet A may be supported by and propelled into position by a series of driven rollers R or may be propelled along such rollers into cutting position.

The blowpipe machine includes three blowpipes or torches B which are supported and propelled across a billet A by a mechanism D mounted on a boom T. The boom T is pivotally connected 'to'a substantially vertical link L which is pivotally connected to the base of the machine. A pneumatic cylinder P is operatively connected to the link L to move the link about its pivot connection to the base to move the boom T and the blowpipes B horizontally and through an arc toward and away from the billet A. The machine is operated through suitable controls at acontrol table which is located away from the billet and out of the zone of high temperature heat. V

The lower end of the link L is mounted on a short shaft l9 pivotally supported in pillow blocks 20 bolted to the base of the machine by bolts 20' and the upper end of the link is similarly pivotally mounted in bearings 2! on the rear portion of boom T (see Fig. 4). By means of bolts 20', the link L can be vertically adjusted so that when abody which is greatly different in size is to be'c'ut'the boom can be maintained substantially horizontally. Normally the link L need not be vertically raised or lowered even though the body being cut is of a diiierent size. As shown i n Fig. 1, an arm 22 is rigidly connected to bo'oi n" T and has an end portion 23 extending downwardly to a position adjacent the link L. A bolt 24 is threaded in the end 23 of arm 22 for longitudinal adjustment therein. The inner end of bolt 24 is adapted to engage the link L. The pneumatic cylinder P is pivotally mounted in bearings 25 on link L and has a piston rod 26 pivotally connected to the pedestal 2! in the base ofl the machine and when gas, such as air, is admitted under presure through the connection 28 to the head end of cylinder P, the link L is moved rearwardly through an are about the axis of bearings 20. This rearward movement of link L first moves the boom T substantially horizontallytoward the right, until the end of bolt 24 engages the link L to prevent any further movement of the link L and boom T relative to each other about the axis of bearings 2i. Further rearward movement of the link L swings the boom T about the axis of bearings 29 to the position shown in broken lines in Fig. 1. When the-bolt 24 engages the link, the link and the boom then swing as a rigid me-mber'about'the axisof bearings 20. The amount of horizontal movement of boom T can be changed by adjusting the bolt 24.

A- relatively wide link 30 is pivotally connected to the boom T and a second wide link 3! is pivotally connected to the pedestal 21. The outer ends of links 30 and 3! are pivotally connected 4 at .32 and these links prevent lateral movement orl'side play of the boom T.

In Fig. 12, the solid line 33 substantially represents the line of movement of the lower gas discharging end of one of the blowpipes B through one cycle of operation. Point 34 on line 33 represents the location of the blowpipe when in the starting position for starting the cut at the-side of the billet A. When air under pressure is admitted to the head end of cylinder P, the blowpipe B is moved substantially horizontally and substantially through a straight line from point 34 to point 35 and then is moved through an arc, as indicated, to position 3%. The blowpipe is returned to the starting position through the same path of movement and if the next body to be severed is larger, the starting point of the out is somewhere between points 36 and 35 depending on the size of the body. Thus, the blowpipes B can be adjusted to sever different sizes of bodies and can be readily swung up and away from a position adjacent the billet A.

Each of the similar blowpipes B, which may be of any conventional type, includes a nozzle 31 adapted to discharge a stream of oxidizing gas wheel 48. Each handwheel is connected to a suitable spur gear (not shown) which meshes "with the rack 38 so that when the handwheel 4c is turned the blowpipe is raised or lowered in- Each holder 39 is slidingly mountits holder 39. ed on a common hollow rectangular tube it and includes a locking bolt 43. With the bolt 43 loosened, the holder 39 can be adjusted along the tube 42 and the bolt can then be tightened to '1 lock the holder in position. Thus each blowpipe isvertically adjustable and the distance between the blowpipes can be readily adjusted for severing different lengths.

The blowpipe supporting tube 42 is supported in the so-called diamond position by a pair of brackets 45 extending upwardly from plate 46.

On each opposite forward side of plate'db there is an ear 4? through which extends a bolt 38 for fastening thereto a depending bracket 49 in which is pivotally mounted a sleeve member 56.

Each sleeve 5&3 is adjustably mounted on a link El and includes a bolt 52 for locking the sleeve in position. The links 5| are pivotally mounted in bearings 53 and support the forward end of the plate 46. On the rear portion of plate 36 there a are a pair of ears 54 each containing an elongated slot55 through which extends a bolt 5% for; ad-

Each

justably fastening thereto a bracket 51. bracket 57 is both pivotally and adjustably conbracket 51 there is pivotally mounted a sleeve member 58 which is adjustably mounted on a link 59. Each sleeve 58 contains a bolt 6%} for looking it in the desired position. 'The two links 59- are connected to a shaft 62 pivotally mounted in bearings 83 on boom T so that the links 59 and shaft 52 move in unison. On the shaft 62 there is mounted a spurgear 65 adapted to mesh with the rack 66 attached to or formed as a part of the piston rod 67 of cylinder 68. A rigid member 69 maintains the rack 66 in engagement with Each blowpipe has a long rack 38 atis vertically adjustably amaze:

the rspurg gear -65. A long screw "I9 31S mounted ln affixed-positionhelowthearackt6 and has there- ,on vspaced adjustable nuts "7,1.

A downwardly extending -finger "1-2 is --connected -to"=piston rod lii -and has an enlarged-hole inits lower end-through which-the screw '19 extends so that the nuts =1 an anti-clockwise direction to move the *blowpipesB toward the"left-across-the billet A. When air under press re is admitted through connec' tion' l 5 to =the ro'd end of cylinder -68, the pistcntl i-s-retractedtoturn the gearfiii in a clockwise direction and move the blowpipes "-B back "to the startin pns'iticn as indicated atiid in Fig. '12.

In Fig. 1 the blowpipes B are shown 1 substaw 'ti i av of the out. n the links 5i=and 59 are swung through an arc at a constant 'arouate speed the horizontal s eed of the hlowpioe will not'he uniform. The Iblowpipe will move 'faster at-the e' tel'pcttion of the "out when the'links 'i-hand ili are substantially vertical and will move slower on the starting and finishing ends cf the cut. Means are provided for controlling the speed of rotation ofshaftiii whereby the blowpipesB are moved at a predetermined varving arc-. ate speed. On the shaft there is mounted a-relatively short-crank'arm 1'ihavinga-ro ler i8 pivdtal v mounted "in its outer-end. As shown more -clearly Figs. '5, 5.9.-Ild "10 -a cam 19 is pivo'tallwmounted on a fixed piniifi. s bstantially T -shaped slot is "formed in the cam 19. The 'shafftm extends throu h-thearcuate portion 8| of the slot which permits cam "-19 to swing through an-arc about "the axis of pin 8". The roller 18 "en lasres'a straia'htportion-M of thes ot. Asismorefullyhereinafter described the arcuate movement of the camifi is retardedso as to cause theshaft il a d crank 1-7 to rotate at anon-uniform-"speed-which in turn causes the hlowpipesB to "move at a non uniform arouate speed.

retarding cylinder -84 is mounted on the boom T and has -a piston-rod 95 which is conneo'te'dhy'rneans of a link "to cam we. As the shaft 62-is rotatedin an anti-clockwise direction to move the blowpioe B across the "bil et. the piston :rod 435- is :rncved toward the eft and as the shaft- R2 is-rotatedtina clockwise directionto-re' turn the blnwpipetcthe starting-p sition, the piston I'Odiflfi is moved toward the right.

shown dia rammatica ly lo'the-head end of the ihvdraulic cylinder 34 communicates through a tube 81 with a fluid reservoir tank i188. The rod end ofcylinder'fi l communicates throu h ai-tuhe 39-with a valve .90. Tubes 93i sandu'fifliare connected-f-bv :a tubers: having a :ba locheck ava ve 93ftherein'iwhich EDYB'VBUtSi-fillid. flowing from the rod end :of cylinder :84 through tube 92 :to the head :end of the cylinder but permits fluid Tto flow"substantiallyifreely fromthe head :end to the rodr'endcofzcylinderizM. Tube 9 1 is connected *between "uvalve iQUJand tube 8? and is provided with an .i'adiustable :metering valve .95 :for controlling tl'ieiirate :of fiomof-afluid ifrom the rod end to the .head {end :of cylinder 23min accordance with "the size :Qf ithE workpiece being-severed. ilhe valve stem :96 of valve 95 is normally :hel-dcain closed position hya springs'lxand issconnected to a lever 98, the outerend of awhich-is connected to dia- .phragmuwiof a'diaphragmimotor 5| 9U swhichlcom- *sourcegof:ainorlotherrgas under pressure.

"With ithe valve 590 closed, jfiuid cannot flow from wthe'rodrend :of cylinder 94. "Thusxwhen air is. admitted iunder pressure to ithe :head end of cylinder 68'to rotate the shaft 32 in ananticlockwise.xdirection the'valve 1392 must be opened to .moveathe diaphragm 9.9 and :the valve :stem 96 towardthel-eft .to openyalvea9t. With valve 99 open, :the rate of iflOW of :fiuid "from the rod end .of cylinder 584 is controlled .by the 'a'diustable metering valve 5.95 which zinormally 5is"*ad justed :prior to the :starting of -*a cut in accordance with the size of the workpiece. Cylinder Biretards the-speed io'f rotation of shaft. the .astart of :the -:cut theroller i8 :is in the 'lower' portion of slot :82 *as :shoWniin'Fig. I0. A's-the shaft 62 rotates in :an anti-clockwise direction the cam roller 18:1n-oves upwardly towardazventical position and moves longitudinally 'i'n'the slot :82 to progressively "increase the retarding leveragegon shaft t2x-softhat the sh'aft 62 rotates progressively :slower as the center of "the out is approached. As the shaft 62 continues to ro--- tate the cam roller '18 moves downwardly toward a horizontal positionand moves longituclinally in the )block .82tto .progress'ively decrease the 'retarding leverage so that the shaft 62 1 rotates :progressivelywfastera during-the last half of the cut. The pin iifiis notsdirectly below the shaft 62 so tha't at the :end. :of ithe out :the leverage "on shaft i 62- is greater than at the start: of "the i out and i-this substantially wcompensates for :the tendency of the aveight supported by: the links to retard the biowpipev speed;during the first half of the cut and to increase fifth-e blowpipe speed during the last half ;of :the gout. 'I'The blowpipe "-B may .be moved at a slightly :hi-gher speed at-the finishing end thanatthe startingend o'f 'the out. While the *blowpipes may :be moved across the workpiece rat a .speed varied "substantially according tothe changes in'the thickness of the :W0rk,"the' blowpipe :rate of atravel' is :not varied exactly in accordance "with the thickness in this apparatus. l When thexcut:hasrbeenzcompleted air underpres- I sure is admitted to the :rod end of cylinder .68 to :rotate thershaft fi'z ina clockwise direction. As theshaftfihrotateslinga clockwisedirection the piston rod 85 is moved towardtheqright and the fluid pressure in the head end of the cylinder 8 causes the check valve 93 to automatically open to *permit substantially free :flow :of "fluid from lthe'rhead end 2130 therrod end;of;the cylinder,

thus the blowpipes B are rapidly returnedito the starting position.

Normally when severing round :bars "or :bill'ets.

the :blowpipe supporting links ;5l "and 5 .9 .are swung through anarc of "approximately :to

move the blowpipescompletely across :the :bar.

If cidetirable this are -:may the increased :or @decreased. awhenthepropelling mechanism is =ad-" ofapiston i5! and th'erarc through-which thejrlinks are swung. When theblowpipes are movedwacross a fiatisurfacethe roller 78 is inxthe upperpor tion of the slot 'BZvduringthe entire cuttingcycle sopthatthe retarding leverage on shaft 62 ais more nearly constant and the I blowpipes B are :moveid at :a more *nearly iconstant speed.

The

1 Three preheating blowpipes I02 are mounted. on the boom T for aiding in preheating a start-.

ing zone to the oxygen ignition temperature. Each blowpipe I02 aids the preheating flames discharged by the corresponding cutting blowpipe B to heat a starting zone and after the cut is started, the flow of gases are preferably shutoff to the preheating blowpipes. When cutting a hot bar the preheating blowpipe may be eliminated and while the preheating blowpipes may be eliminated when severing cold bars, they materially reduce the preheating period so that more cuts may be made during a given period. As shown more clearly in Figs. 1, 3, and 10 a tube I03 is attached to the side of each blowpipe B, and each tube is connected through a valve I04 to a source or. combustible gas, such as acetylene. The tubes I03 each continuously discharges a'stream of a combustible gas mixture such as a mixture of acetylene and air which burns substantially continuously. These flames serve as pilot flames or ignitors for the preheating gases'discharged from the cutting blowpipe B and the corresponding preheating blowpipe I02.

As shown diagrammatically in Fig. 10, suitable hose and valve connections are provided for supplying gases to each of the blowpipes B and I02 and to the lighter'I03. Each cutting blowpipe B is connected through a hose I05 with an acetylene header I06 which i in turn connected by a hose 01 to a source of acetylene gas and is connected through a hose I08 with a header I09 which is in turn connected by a hose III] to a source of combustion supporting gas, such as oxygen. The preheat acetylene and oxygen are mixed in the blowpipes and discharged as jets of a combustible gas mixture which upon igni tion burn to form preheating flames. Each blowpipe B is connected by a hose II2v with header II3 which communicates through hose II 4 with a source of cutting oxygen. A manually operable valve I23 is provided for quickly shutting ofi the flow of oxygen to each blowpipe B. Each preheating blowpipe I 02 is provided with a length of hose II5 which is connected to a header II 6 which is connected through a hose II? with a source of acetylene. I02 is also connected to a length of hose H8 connected to a common header II9 which communicates through a hose I20 with a source of preheat oxygen. The ignitors or pilot torches I03 are all supplied with acetylene by a hose I2I Each blowpipe" which is connected to a suitable source of supply.

Referring more particularly to Figs. 1 to 4 inclusive, the boom T is articulated to permit align-' ment of the blowpipes B relative to the side of the billet A. The boom T comprises a, front member I24 adapted to engage the billet A and a rear member I25. A sleeve I26 extends through an openin in member I24 and is fastened to the member I25. The sleeve I26 is coextensive with a hollow boss I 25" formed on member I24 and a bolt I2! extends through sleeve I26 and boss I26 of member I24. The bolt I21 has a nut I28 on its lower end which normally is relatively loose so that the member I24 can swing about the vertical axis of bolt I2'I. A bolt I29 extends through anarcuate slot I30 in member I24 and is threaded in the member I25. A bar I3I is provided in the upper end of bolt I23 so that if desirable, the operator can readily tighten bolt I29 to prevent movement of member I24 relative to member I25. Normallythe'bolt I 29 is relatively loose so that the boom T is articulated and the slotI30 limits movement of member I24 relative;-

to member I25. Two spaced apart, downwardly depending fingers I33 are bolted to member I24 and are adapted to engage the side of the billet A.

As will be more fully hereinafter described, when the boom T is urged toward the left the fingers I33 are urged into engagement with the side of the workpiece. The fingers I33 not only limit themovement of the boom T toward the left but cause the member I24 to move relative to mem-" ber" I25 to maintain the blowpipes Bin a plane substantially perpendicular and parallel with the longitudinal axis of the workpiece. As shown more particularly in Figs. 2-and -'7- to 10, a control table C'is provided at which the plete cycle of operations.

lOIlg cam shaft I35 on which are mounted a plurality of cams each for actuating a corresponding one of the valves Him and I36 to I50 which are shown diagrammatically in Fig. 10. All these.

valves and the cam mechanism for'actuating each of them are substantially similar and only one will be described in detail. Referring more particularly to Fig. 9, a cam I5I is mounted on the shaft I35. on a vertical rod I53. is also mounted on rod I53 and is connected to A cam follower I52 is mounted a valve stem I55 of valve I36 which is provided with inlet and outlet connections I56 and I51.

An adjustable screw I58 is threaded in-arm I54 v for engagement with a boss I59 on the follower I52; When the shaft I35 is rotated in a clockwise I55 outwardly to open the valve I36.

All of the valves I32a, and I36 to I50 are sub-:- stantially'similar to valve I36 and are similarly operated by similarcams and will not be described individually in detail.

a limit switch I63 electrically connected in the electrical circuit of the stop'clock 'I6I. be more fully hereinafter described, when the :cutting oxygen is turned on by moving the con-'- troller handle I34 in a clockwise direction, the limit switch 'I 63 is actuated to complete the electrical circuit to the stop clock I6I so that the turn off the cuttin oxygen, the limit switch I63 is opened to stop the clock I6I which until reset, indicates the time required to sever the work- As shown more clearly in Fig. 8, a cam I64 is mounted on shaft I35 and is adapted to" piece.

engage a cam follower I65 mounted on rod I53. The cam follower is operatively connected readily control the operation of the machine and may serve as'a reminder as to how long a time the cutting oxygen should be left on.

In Fig. 10, an alternative arrangement is j A corresponding arm I54 As will 9 shown whichr eliminates: the liinit swltcti' BBB-t A normally open switch III1 ist provided in the elecltricali circuitof the clock-- I6 and is connected to" a diaphragm I'H. A=cuttingoiygen line 11-2 communicates withone o'f the h' e- H2 so that when: the cutting oxygen is turned on for blowpipes- B, the diaphragm H2- is m'ov'ed to close switch I'll} and start the clock1- When the' cutting oxygen is turned on: the pressure drops in line In andswitch IIIl opens t'o stop the clock I G I In this alternative arrangeme'n-fithmlo'ck I61" is" reset by movement of the controller ham die as described above. To completea cyole of operations, the controller handle I34- moved through six' positions, including arron position: The handle I3 his rrfovablyl Held in the' different positions by a springpressure -rolle'r I TIi engages a starwheel I 141 l Referring to Figs. Lt'o: Bandniore particularly to:.Figs. 1G to 13, the-cycle of operations is sub stantially as follows: i With: the control handle I3 I in= the on position all of theactuating valvesare closed excep't valves I45 and I45 andvalves lfl and l fifl vvliich areopen. The valve: I45 opens the head e'nd of the blowpipe propelling. cylinder 68 to theatmos phere and the open valve. I4'6 a'dmitsair 'under pressure to the rod emi' IO f cylinder? 68L Withvalves I49: and. I50 open',I. air' under pressureis admitted to the head endi of. cylinderrB'and the rod end is opened'to the atmosphere' so thatt'when the controller handle I34 is =in the off position, the blowpipes are retracted and the boomT is intihe" raised position' as indicated inbroken lines in Fig-*1. With: the boom T in the raise'd position the controller handle I34 is moved from themff position to the first position and during this movement valves I49 and IE0 are closed and-- valves I41 and I48 are opened to admit air under pressureto the rod-endof cylinder P'and to openthe head endto the atmosphere. valves I49' and Hill are closed theboom T- tends toiswingdown'vvardly under the influence-of grav ity and the opening ofvalves I41" and l lBposirtively moves and urges the boornIT' into engage ment with the bar to be severed and alsomoves andlurges the link IL, the boom T and the. fingers I33 toward the left so that the fingers engage the; side of the workpiece as'shown.in I. Fig.- 1 With the controller handle in thefirstpositiony.

theblowpipesare in the position indicatedI at- M l. and 34. Asthe controller is moved from th first to the second position, valves I31 and I42:

are opened to turn on the preheat-oxygen and" preheat acetylene: for the preheatingblowpipes I02, and the valves I36 and-I MI areopened: to turn on the preheat gases for the cuttinglblow= pipes B. Thevalves-I I 43 and i 4 3 are also opened to admit air under pressureto the head end of the blowpipe propelling cylinder 68 but as the valve 9B is closed the blowpipes B do not move.

After a shortpause for preheating startingszones to the I oxygen ignition temperature the controller; handle I34 is movedto the third position. As 'the controllerhandle I34 is moved tothe thirdl position valves-I 31 and i 42 areclosecl to -sh1 1t-ofl-the When: the a iii) gas? for? the preheating blo wpip'es' M72 andi tha valves I 38 and1 E39. and: Iw'are cpened toit'um the cutting oxygen I for the cutting; blowpip'esi Bi As; thecutting oxygen is turned on valve)" ma is' si multaneou'sly opened-to admit airunder 'p sui e to the 'diaphra'gm motor I'I'lG which ifi tur opens valve- 992' to: permit movement or the linksi 51 and 591 in a counter-clockwise direction as: previously: described to move the cuttingblow pip es B aorossthe work-piece: at a suitable cutting speed which is controlled by the meteringtvalve 95o When the: workpiece. has! been completely; se vered;.Ithe= controller handle" I34 is moved to the fourth positionwvhichcloses valves I 3-5; I 41",. I38 I3 '9 a'nd Mil to turn oirall the gasesfor the-ca Y ting blo-Wpipese The controller hand-1e then moved to the position I which: closesvalve- 12w and exhaust valve I44 and opens exhaust valve.--I 45-and opens-valve: I46'to admit airunde'i pressure to tl-"le-rod=endof the cylinder 68 to=re tracttheblowpipesto the starting position;-- The controller handle is then moved to 'the oif posi tion: which additionally opens exhaustwalve I149 and valve I50 tora'dmit air under pressure-to the: head-end of cylinder P which moves-the boom--1 and the link L to the right until the bolt 24 en-- gages the link L at which time the blowpipes a-re in a position indicated at 35- or 35 ll urtlien movement of thelink btoward the right" causesthe boom T to swing upwardly: to thedotted position shown in Fig2 Land:moves the blowpipes to the position indicated: at 36 on 36 Thus,I-the: operator while located.- at the control table cam by: moving: the controller handle I34: through: a

complete. circle, sequentially. operate the ma! chine to complete a -cycle of cuttingoperationss If the next bar is of adifierent size or is 'of a different shape, the previouly: described ad-just mentsmust be-madeprior toanothercutting ope" eration but' if the next bar isof the samesize-,-II the operatorneed I makeno adjustments.

Having described the invention 1 in detail it isI obvious that alterations could be made in the appparatus" shown and thatsome features couldbs; used without others withoutdeparting from the spirit or scope of theinvention. For instances a" different devicecould be: used for supporting and propelling: the b'lowpipe Baoross the workp'iece.I Other types of:torcheablowpipess or discharging means could beIpropelled across sucha body for welding, hardening, heat treating or directing a gaseous stream against-such a bar-L The bar to be severed could be supported i-n a vertical ori inclined position and. the blovipipe machine :could -beilocated inthe samer el'i tiv'e'zp'osition;

whatiszclaimediisiz 1. A machine for thermochemically severingiam elongatediferrous: metal I b'odmIsaid' machinerha ing. a:- cuttingix b1owpipe, mechanism for" actu ating said cutting'i' blowp'ipaI a support-I for setid cutting blowpipe mechanism, starting device mountsdzom said support for: startingwaacutin: thepath of said: cutting-z b1o wp'ip'e;II meansron moving said support-I to" move said mechanisin and saidci'itti'nge.v blowpipe andsaid starting; de-- v-ice from an inoperative position one side-of and away from said body-toward said body to-anop--= erative position adjacent said: body, Isaid blow pipe actuatingImechanism being: so arranged with respect'to said.- support thatwhen said support arrives; at said I operative position: itbrings saidcu-tting .I blowpipeintoker-t forming-1relation-w iththe adjacent-surfaceof= saidbody; and-said-steJnt ing device being so located on said support that whensaid support arrives at. said operative position,,i t brings said startingv device into operative relation with said body at the entrance portion of the kerf to cooperate with said cutting blowpipe to start the cut and means for actuating said blowpipemechanism when in said operaive position for. moving said cutting blowpipeforward from said starting device and transversely to said metal body for continuing the cutting stroke.

2. A machine for thermochemically severing an elongated ferrous metal body, said machine having a cutting blowpipe, mechanism forv actuating said cutting blowpipe, a support for said cutting blowpipe mechanism, a preheat blowpipe mounted on said support, means for moving said support to move said mechanism and cutting and preheat blowpipes from an inoperative position at one side of and away from said body toward said body to an operative positionv adjacent said body, said blowpipe actuating mechanism being so arranged with respect to said support that when said support arrives at said operative position it brings said cutting blowpipe into kerf forming relation with the adjacent surface of said body, and said preheat blowpipe being so located on said support that when said support arrives at said operative-position, it brings said preheatblowpipe into position to project preheat gases against said body at the entrance portion of the kerf to cooperate with said cutting blowpipe to start the cut and means for actuating said blowpipe mechanism when in said operative position for moving said cutting blowpipe forwardly away from said preheat blowpipe and transversely to said metal body for a cutting stroke.

3. Blowpipe apparatus which comprises a blowpipe, mechanism for supporting and propelling said blowpipe across the surface of a metal body, said mechanism comprising a shaft rotatable about its longitudinal axis, means for rotating said shaft to move said blowpipe across said surface, a crank arm connected to said shaft, a cam arm pivotally mounted for swinging movement in atransverse plane relative to said shaft,

said cam arm having an elongated slot formed therein and adapted to receive the outer end of said crank arm, and means connectedto-said cam arm forretarding the swinging movement thereof'tovary the rate of travel of said blowpipe by applying a retarding leverage to said shaft.

:4. In a machine. for propelling a blowpipe at a variable speedacross a body of variable thickness, the combination of a rotatable shaft; means connected to said shaft and adapted to support andmove the blowpipe across said body as said shaft is turned; and power-actuatedmechanism for turning said shaft at an automatically varied,

rotational speed to move saidblowpipe at a predetermined varyingspeed across the body, said mechanism including a crank arm connected at one end to said shaft and adapted. to rotate therewithand to exert varying leverages thereupon; a cam pivotally supported for. swinging move-V ment and associated withsaid crank. arm; an. elongated cam slot formed in said cam and adapted to-bev engaged by the other endof said crank arm, said slot being so constructed and arranged that when said shaft is turned, said other crank arm end moves in said slot to psition's at different distances from the axis of said cam; and means applying asubstantially 12 constant turning'forcetending to turn said shaft and move said blowpipe.

5. In a machine for propelling a blowpipe at a variable speed across a body of variable thickness, the combination of a rotatable shaft; means connected to said shaft and adapted to support and move the blowpipe across said body as said shaft is turned; and power-actuated mechanism for turning said shaft at an automatically varied rotational speed to move said blowpipe at a predetermined varying speed across the body;

said mechanism including a crank arm connected at its innerend to said shaft; a cam pivotally supported for swinging movement; an elongated cam slot in said cam and adapted to receive the outer end of said crank arm; poweractuated means for applying a substantially constant torque to said shaft and tending torotate said shaft; means for applying a substantially constant retarding force to said cam for retarding the rotational speed ofsaid shaft, said slot being so constructed and arranged that when said shaft is turned by said substantially constant force applying means, the retarding leverage exerted on said shaft by said retarding force automatically varies as said shaft turns whereby the blowpipe is moved at a predetermined varying speed across the body.

6. A machine for propelling one or more blowpipes across an elongated metal body when supported in a horizontal position comprising, in combination, a support adapted to be mounted adjacent one side of such body; an upwardly extending link pivotally connected at its lower end to said support and swingable toward and away from said body; a boom pivotally connected adjacent its rearward end to the upper end of said link, said boom extending toward said body and having a rear member and a front member articulated thereto and adapted to engage said body;

at least one blowpipe movably supported on said front member; means for propelling said blowpipe across said body when in an operative position with respect to said body; power-actuated means for swinging said link and moving said boom to shift said blowpipe to said operating position adjacent said body and away from said body to a non-operating position; a connection between said rear member of the boom and said front member allowing horizontal angular adjustment between said boom members; and means on said front member for engaging horizontally spaced apart portions of said body to adjust said front member horizontally into alignment with said body;

. .7. 'Ina blowpipe machine, the combination of power-actuated means for propellin the blowpipe across a metal body; control means for starting and stopping the blowpipe movement; gas flow control means for turning on the flow of gas to the blowpipe at the start of the blowpipe movement and for turning off the flow of gas at the end of the blowpipe movement; a clock for timing the period of gas flow and blowpipe movement; means for automatically starting and stopping said clock at the beginning and end of the blowpipe movement and gas flow; and means for resetting said clock prior to turning on the flow of gas.

8. In a blowpipe machine, the combination of power-actuated means for supporting and propelling a blowpipe across a metal body; means for turning on and off the flow of gas to the blowpipe; a clock for timing the period of gas flow; and means operable by the actuation of said gas flow 13 control means for starting and stopping said clock.

9. In a blovvpipe machine, the combination of means for supporting and propelling a blowpipe across a metal body; means for conveying gas under pressure from a source of supply to the blowpipe; means for controlling the flow of gas through said conveying means; clock for timing the period of gas flow; and means operable by the pressure of the gas flowing to said blowpipe for starting said clock and operable by the lack of pressure when the gas is not flowing to said blowpipe for stopping said clock.

10.1n a blowpipe machine for propelling a blowpipe across a metal body, and having remote control means located at a point from which the operation or" the blow-pipe is not clearly visible, the improvement which comprises timing means responsive to operation of the blowpipe, and located at a point at which said timing means is clearly visible from said remote control means, whereby the operator of said remote control means may correlate the operation of the machine to the operation of the blovvpipe.

LLOYD W. YOUNG. THOMAS S. JAMES.

14 REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 1,562,537 Blum Nov. 24, 1925 2,015,329 Anderson Sept. 24, 1935 2,187,731 Davis Jan, 23, 1940 2,189,540 Boerger Feb. 6, 1940 2,244,822 Bucknam June 1, 1941 2,283,345 Young May 19, 1942 2,283,346 Bucknam et al May 19, 1942 2,289,786 Jones July 14, 1942 2,289,968 Jones July 14, 1942 2,302,182 Bucknam Nov. 17, 1942 2,325,312 Follender July 27, 1943 2,347,804 Anderson May 2, 1944 2,365,235 Young et a1 Dec. 19, 1944 2,365,275 Jones Dec. 19, 1944 2,365,276 Miller Dec. 19, 1944 2,404,600 Scovill July 23, 1946 2,405,945 Ehemann Aug. 20, 1946 

